Intercellular communication in cultured human vascular smooth muscle cells

Intercellular communication through gap junction channelsplays a fundamental role in regulating vascular myocyte tone. We investigated gap junction channel expression and activity in myocytes from the physiologically distinct vasculature of the human internal mammary artery (IMA, conduit vessel) and saphenous vein (SV,capacitance vessel). Northern and Western blots documented the presenceof connexin43 (Cx43) in frozen tissues and cultured cells from both vessels. Northern blots also confirmed the presence of Cx40 mRNA incultured IMA and SV myocytes. Dual whole cell patch-clamp experiments revealed that macroscopic junctional conductance was voltage dependent and characteristic of that observed for Cx43. In the majority ofrecords, in both vessels, single-channel activity was dominated by amain-state conductance of 120 pS, with subconducting events comprisingless than 10% of the amplitude histograms. However, some recordsshowed "atypical" unitary events that had a conductance similar toCx40 (~140-160 pS), but gating behavior like that of Cx43. Assuch, it is conceivable that the presence and coexpression of Cx40 andCx43 in IMA and SV myocytes may result in heteromeric channelformation. Nonetheless, in terms of gating, Cx43-like behavior clearly dominates.